CN113531183A - Self-heating unfreezing type anti-freezing water faucet - Google Patents

Abstract

The invention discloses a self-heating unfreezing type anti-freezing water faucet, which belongs to the technical field of water faucets, wherein a heat conduction sleeve and an anti-freezing sleeve are respectively sleeved at the upper end and the lower end of a rear section pipe, a plurality of anti-freezing self-heating bodies which are contacted with the bottom of the rear section pipe are arranged in the anti-freezing sleeve, the plurality of anti-freezing self-heating bodies are used for sensing the internal temperature of the rear section pipe, when the internal temperature of the rear section pipe suddenly drops enough to freeze accumulated water, the temperature of a hollow cylinder which is in close contact with the rear section pipe is reduced, the temperature of water storage strips on the peripheral side wall of the hollow cylinder is reduced, after the water of the water storage strips is frozen, the water storage strips are expanded and burst to expose an oval cavity, then a self-heating column inside the hollow cylinder is exposed to be contacted with air to generate self-heating reaction, heat is transferred into the rear section pipe by a heat conduction ball, and the anti-freezing sleeve and the heat conduction sleeve which are arranged in butt joint are matched with the heat conduction sleeve to effectively unfreeze the frozen part in the rear section pipe, the automatic thawing after freezing is realized, and the water taking is not influenced.

Description

Self-heating unfreezing type anti-freezing water faucet

Technical Field

The invention relates to the technical field of water faucets, in particular to a self-heating unfreezing type anti-freezing water faucet.

Background

The water tap is a popular name of a water valve, is used for controlling the size of water flow to be switched on and off, and has the effect of saving water. Faucets are often used on water supply lines for everyday use, and for convenience in outdoor use, faucets are often mounted in a suspended manner using an additional water pipe mounted at a distance from the wall.

However, in cold environments, particularly at night in winter in the north, after the valve is closed, a small amount of running water can be stored in the water pipe hollowed out, the running water which does not flow out and remains in the water pipe can be frozen, and the condition that the water flow is blocked due to freezing can occur by opening the water faucet in the morning of the next day, so that normal water use is influenced. The existing solution is to wrap a heat-insulating layer outside a water pipe, but the effect is not good, and the phenomenon of icing cannot be avoided. In addition, in the case of frozen water pipes, the water is difficult to be smooth by adopting the traditional methods such as water scalding, burning and the like, so that the water is difficult to be taken in early morning.

Therefore, the self-heating unfreezing type anti-freezing water faucet is provided to effectively solve the problems in the prior art.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a self-heating thawing type anti-freezing water faucet, wherein a heat conducting sleeve and an anti-freezing sleeve are respectively sleeved at the upper end and the lower end of a rear-section pipe, a plurality of anti-freezing self-heating bodies which are contacted with the bottom of the rear-section pipe are arranged in the anti-freezing sleeve, the plurality of anti-freezing self-heating bodies are used for sensing the internal temperature of the rear-section pipe, when the internal temperature of the rear-section pipe suddenly drops enough to freeze accumulated water, the temperature of a hollow cylinder which is closely contacted with the rear-section pipe is reduced, the temperature of water storage strips on the peripheral side wall of the hollow cylinder is reduced, when the water of the water storage strips is frozen, the water storage strips are burst by the increase of the volume to expose an oval cavity, and then self-heating columns on the inner side of the hollow cylinder are exposed to be contacted with air to generate self-heating reaction, heat is transferred into the rear-section pipe by a heat conducting ball, and the anti-freezing sleeve and the heat conducting sleeve which are butt-connected are matched to effectively thaw the frozen part in the rear-section pipe, the automatic thawing after freezing is realized, and the water taking is not influenced.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a self-heating type of thawing frostproofing tap, includes the valve, the front and back end of valve is equipped with outlet pipe and inlet tube respectively, the inlet tube includes front segment pipe and back segment pipe, front segment pipe is connected with the valve, the back segment pipe is connected with the outer tube, the upper and lower end of back segment pipe is overlapped respectively and is equipped with heat conduction cover and frostproofing cover, frostproofing cover inside is provided with a plurality of frostproofing self-heating bodies, and is a plurality of frostproofing self-heating body top extends to back segment pipe department, frostproofing self-heating body includes well hollow cylinder and heat conduction ball, heat conduction ball connects on well hollow cylinder, well hollow cylinder inside is inlayed and is equipped with the self-heating post, set up a plurality of oval cavitys that are linked together rather than inside on the well hollow cylinder lateral wall, a plurality of all inlayed water storage strip in the oval intracavity, through the upper and lower extreme cover of back segment pipe respectively establish heat conduction cover, frostproofing cover, the inside of frostproofing cover is provided with a plurality of frostproofing self-heating body that contact bottom the back segment pipe, the anti-freezing self-heating bodies are used for sensing the internal temperature of the rear section pipe, when the internal temperature of the rear section pipe drops suddenly enough to freeze accumulated water, the temperature of the hollow cylinder in close contact with the rear section pipe is reduced, the temperature of the water storage strips on the peripheral side wall of the hollow cylinder is reduced, after the water of the water storage strips is frozen, the water storage strips are expanded and cracked in a size increasing mode, the oval cavity is exposed, the self-heating column on the inner side of the hollow cylinder is exposed and contacted with air, self-heating reaction occurs, heat is transferred into the rear section pipe through the heat conduction balls, the anti-freezing sleeve and the heat conduction sleeve are arranged in a butt joint mode in a matching mode, the freezing position in the rear section pipe is effectively unfrozen, automatic unfreezing after freezing is achieved, and water taking is not affected.

Furthermore, the one end slope that the back end pipe was kept away from to the anterior segment pipe upwards connects on the valve, back end pipe level sets up, effectively avoids the back end pipe overlength that the level set up, and when closing the valve after, the intraductal water of anterior segment can be led back to back end pipe department as far as possible.

Furthermore, the upper end face of the anti-freezing sleeve is provided with an arc-shaped flap which is sleeved at the bottom end of the rear-section pipe, a plurality of communicating cavities are formed in the bottom end of the rear-section pipe, a plurality of spherical bulges matched with the positions of the communicating cavities are arranged on the arc-shaped flap, and the spherical bulges extend to the inside of the communicating cavities.

Further, it is a plurality of spherical swell sets up with a plurality of heat conduction ball position one-to-one, and is a plurality of cavity bobbin end is connected with the closing plate, the closing plate is connected in the bottom of preventing frostbite and overlaps, sets up the arc lamella between preventing frostbite and back end pipe, and a plurality of heat conduction balls extend to the back end intraductally, prevents frostbite from the internal temperature that can the perception back end pipe to a certain extent to when freezing, utilize its self-heating to unfreeze when preventing frostbite from the internal temperature shock of heat body.

Furthermore, the water storage strip comprises an outer capsule embedded on the elliptical cavity, and tap water is stored in the outer capsule.

Furthermore, the outer bag adopts the film material to make, and is a plurality of the top of water storage strip extends to inside the heat conduction ball, and when the water freezes the back, the frozen volume increase of water makes the outer bag spalling, exposes out the self-heating post, and the self-heating post produces the heat with the air contact is spontaneous.

Further, from the heat post including inlaying the heat conduction pole of locating in the cavity section of thick bamboo, cladding one deck self-heating material on the outer wall of heat conduction pole, reducing iron powder is chooseed for use to self-heating material, utilizes reducing iron powder and oxygen reaction to produce the heat, and this heat is leading-in to the back end intraductal through heat conduction ball, spherical swell, effectively carries out the processing of unfreezing to the inside department that freezes of back end pipe.

Further, the inside of heat conduction ball is equipped with the heat conduction bag that is connected with cavity section of thick bamboo top, the heat conduction bag includes cavity bag and fills in the inside thermal expansion gas of cavity bag.

Furthermore, the hollow bag, the heat conduction ball, the heat conduction rod and the arc-shaped valve are all made of heat conduction materials, and the thermal expansion gas is carbon dioxide, so that the heat conduction effect of the anti-freezing self-heating body is further improved.

Furthermore, a heat preservation cavity is opened in the heat conduction sleeve, heat preservation cotton is filled in the heat preservation cavity, a plurality of heat conduction strips are inserted in the heat preservation cotton, heat is transferred to the heat conduction sleeve through the anti-freezing sleeve, the heat conduction area is effectively enlarged, and the thawing speed of the rear-section pipe is improved.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) in the scheme, the upper end and the lower end of the rear-section pipe are respectively sleeved with the heat conduction sleeve and the anti-freezing sleeve, a plurality of anti-freezing self-heating bodies which are contacted with the bottom of the rear-section pipe are arranged in the anti-freezing sleeve, the plurality of anti-freezing self-heating bodies are used for sensing the internal temperature of the rear-section pipe, when the temperature in the rear section pipe suddenly drops enough to freeze accumulated water, the temperature of the hollow cylinder in close contact with the rear section pipe is reduced, the temperature of the water storage strips on the peripheral side wall of the hollow cylinder is reduced, when the water in the water storage strip is frozen, the water storage strip is burst by the volume increase to expose the oval cavity, and the self-heating column inside the hollow cylinder is exposed to contact with the air, thereby take place the auto-thermal reaction to in being managed with heat transfer to the back end by heat conduction ball, and the cooperation is butted the frostproofing cover and the heat conduction cover that set up, effectively unfreezes the intraductal department that freezes of back end, realizes independently unfreezing after freezing, does not influence the water intaking.

(2) The one end slope that the back end pipe was kept away from to the front segment pipe upwards connects on the valve, and back end pipe level sets up, effectively avoids the back end pipe overlength that the level set up, and after closing the valve, the intraductal water of anterior segment can be led back to back end pipe department as far as possible.

(3) The up end of preventing frostbite overlaps is equipped with the arc lamella that the back end socle end was located to the cover, a plurality of intercommunication chambeies have been seted up to back end socle end, be provided with on the arc lamella a plurality ofly with the spherical swell of intercommunication chamber position assorted, spherical swell extends to inside the intercommunication chamber, a plurality of spherical swell sets up with a plurality of heat conduction ball position one-to-ones, a plurality of well cavity bobbin bottoms are connected with the closing plate, closing plate connection is in the bottom of preventing frostbite overlaps, set up the arc lamella between preventing frostbite overlaps and the back end pipe, a plurality of heat conduction balls extend to the back end intraductally, prevent frostbite from the internal temperature of heat body can further perception back end to a certain extent, thereby when freezing from the heat body temperature shock freezing, utilize it to freeze as the trigger condition that independently produces heat and unfreeze.

(4) The water storage strip is including inlaying the outer cyst of locating on the ellipse chamber, and the inside storage of outer cyst has the running water, and outer cyst adopts film material to make, and inside the top of a plurality of water storage strips extended to heat conduction ball, when the back that freezes of running water, the frozen volume increase of water made outer cyst spalling, exposed out from the heat post, from the heat post and the spontaneous production of heat of air contact.

(5) From hot post including inlaying the heat conduction pole of locating in the cavity section of thick bamboo, cladding one deck self-heating material on the outer wall of heat conduction pole, the self-heating material chooses for use reducing iron powder, utilizes reducing iron powder and oxygen reaction to produce the heat, and this heat is intraductal leading-in to the back end through heat conduction ball, spherical swell, effectively carries out the thawing treatment to the inside department that freezes of back end pipe.

(6) The inside of heat conduction ball is equipped with the heat conduction bag that is connected with well hollow section of thick bamboo top, and the heat conduction bag includes well hollow bag and fills in the gas that expands with heat of well hollow bag inside, and well hollow bag, heat conduction ball, heat conduction pole, arc lamella all adopt the heat conduction material to make, and the gas that expands with heat adopts carbon dioxide, further improves the thermal conductance effect of preventing frostbite from the heat body for the speed of unfreezing.

(7) The heat preservation chamber has been seted up to heat conduction cover's inside, and heat preservation intracavity portion is filled has the heat preservation cotton, and the cotton interpolation of heat preservation is equipped with a plurality of heat conduction strips, and the heat is passed to heat conduction cover department back through preventing frostbite and is effectively enlarged heat conduction area, improves the speed of thawing of back end pipe, prevents frostbite cover simultaneously and heat conduction cover butt joint setting, plays the heat preservation effect of preventing frostbite to back end pipe itself.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a first schematic diagram illustrating the detachment of the present invention;

FIG. 3 is a second schematic illustration of the present invention in a disassembled state;

FIG. 4 is a schematic illustration of the present invention in exploded view with the antifreeze jacket in combination with a plurality of antifreeze heaters;

FIG. 5 is a schematic illustration of the antifreeze self-heating body of the present invention in disassembled form;

FIG. 6 is a partial cross-sectional view of the antifreeze self-heating body of the present invention.

The reference numbers in the figures illustrate:

1 valve, 2 water outlet pipes, 3 water inlet pipes, 301 front section pipes, 302 rear section pipes, 3021 communicating cavity, 4 anti-freezing sleeves, 5 heat conducting sleeves, 501 heat conducting strips, 502 heat insulating cotton, 6 arc petals, 601 spherical bulges, 7 anti-freezing self-heating bodies, 701 hollow cylinders, 7011 elliptical cavities, 702 heat conducting balls, 703 water storage strips, 7031 outer capsules, 7032 tap water, 704 self-heating columns and 8 heat conducting capsules.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-2, a self-heating defrosting type anti-freezing faucet includes a valve 1, a water outlet pipe 2 and a water inlet pipe 3 are respectively disposed at the front end and the rear end of the valve 1, the water inlet pipe 3 includes a front pipe 301 and a rear pipe 302, the front pipe 301 is connected to the valve 1, the rear pipe 302 is connected to an outer pipe, one end of the front pipe 301, which is far away from the rear pipe 302, is obliquely and upwardly connected to the valve 1, the rear pipe 302 is horizontally disposed, thereby effectively preventing the rear pipe 302 from being horizontally disposed from being too long, and when the valve 1 is closed, water in the front pipe 301 is guided back to the rear pipe 302 as much as possible.

Referring to fig. 3-6, the upper and lower ends of the rear tube 302 are respectively sleeved with a heat conduction sleeve 5 and an anti-freezing sleeve 4, the anti-freezing sleeve 4 is internally provided with a plurality of anti-freezing self-heating bodies 7, the top ends of the plurality of anti-freezing self-heating bodies 7 extend to the rear tube 302, each anti-freezing self-heating body 7 comprises a hollow cylinder 701 and a heat conduction ball 702, the heat conduction ball 702 is connected to the hollow cylinder 701, a self-heating column 704 is embedded in the hollow cylinder 701, the outer side wall of the hollow cylinder 701 is provided with a plurality of oval cavities 7011 communicated with the interior of the hollow cylinder 701, water storage strips 703 are embedded in the plurality of oval cavities 7011, the plurality of anti-freezing self-heating bodies 7 are used for sensing the internal temperature of the rear tube 302, when the internal temperature of the rear tube 302 suddenly drops enough to freeze accumulated water, the temperature of the hollow cylinder 701 in close contact with the rear tube 302 is also reduced, the water in the water storage strips 703 on the peripheral side wall of the hollow cylinder 701 are synchronously frozen, and when the water of the water storage strips are frozen, the water storage strips 703 expand and burst, so that the oval cavity 7011 is exposed, and the self-heating column 704 inside the hollow cylinder 701 is exposed to contact with air, so that self-heating reaction occurs to achieve ice breaking and thawing.

Referring to fig. 2-3, an arc flap 6 sleeved on the bottom end of the rear-section pipe 302 is disposed on the upper end surface of the anti-freezing sleeve 4, a plurality of communicating cavities 3021 are disposed on the bottom end of the rear-section pipe 302, a plurality of spherical bumps 601 matched with the communicating cavities 3021 are disposed on the arc flap 6, the spherical bumps 601 extend into the communicating cavities 3021, the plurality of spherical bumps 601 and the plurality of heat conducting balls 702 are disposed in a one-to-one correspondence manner, a sealing plate is connected to the bottom end of the plurality of hollow cylinders 701 and connected to the bottom of the anti-freezing sleeve 4, the arc flap 6 is disposed between the anti-freezing sleeve 4 and the rear-section pipe 302, the plurality of heat conducting balls 702 extend into the rear-section pipe 302 through the spherical bumps 601, and the heat conducting balls 702 can further sense the temperature in the rear-section pipe 302 to a certain degree, so that when the anti-freezing self-heating body 7 freezes ice, the anti-freezing self-heating body can be used for self-heating and thawing.

Referring to fig. 5-6, the water storage strips 703 include an outer bag 7031 embedded in the elliptical cavity 7011, tap water 7032 is stored in the outer bag 7031, the outer bag 7031 is made of a thin film material, the top ends of the water storage strips 703 extend into the heat conducting ball 702, and when the tap water 7032 freezes, the frozen water volume increases to burst the outer bag 7031, expose the self-heating column 704, and the self-heating column 704 contacts with air to generate heat spontaneously.

Specifically, the self-heating column 704 includes a heat conducting rod embedded in the hollow cylinder 701, the outer wall of the heat conducting rod is coated with a layer of self-heating material, the self-heating material is made of reducing iron powder, the reducing iron powder reacts with oxygen to generate heat, the heat is introduced into the rear-section pipe 302 through the heat conducting ball 702 and the spherical bulge 601, and the frozen part inside the rear-section pipe 302 is effectively unfrozen.

In addition, what needs to be supplemented is that the inside of heat conduction ball 702 is equipped with the heat conduction bag 8 that is connected with hollow section of thick bamboo 701 top, and heat conduction bag 8 includes hollow bag and fills the thermal expansion gas in hollow bag inside, and hollow bag, heat conduction ball 702, heat conduction pole, arc lamella 6 all adopt the heat conduction material to make, and thermal expansion gas adopts carbon dioxide, further improves the thermal conductance effect of preventing frostbite from hot body 7.

Please refer to fig. 1 and fig. 3, and cooperate with the anti-freezing sleeve 4 and the heat conducting sleeve 5 which are butt-jointed, the anti-freezing sleeve 4 and the heat conducting sleeve 5 play a role of anti-freezing and heat preservation on one hand, on the other hand, the heat conductivity of the anti-freezing self-heating body 7 is improved, the freezing part in the rear-section pipe 302 is effectively thawed, the heat preserving cavity is arranged in the heat conducting sleeve 5, the heat preserving cotton 502 is filled in the heat preserving cavity, the heat conducting strips 501 are inserted in the heat preserving cotton 502, the heat conducting strips 501 are inserted in the heat conducting sleeve 5, fig. 3 is a state diagram when the heat conducting strips 501 are detached from the heat conducting sleeve 5, after the heat is transferred to the heat conducting sleeve 5 through the anti-freezing sleeve 4, the heat conducting area is effectively enlarged, and the thawing speed of the rear-section pipe 302 is improved.

Compared with the water faucet in the prior art, the water inlet pipe 3 on the water faucet comprises a front-section pipe 301 and a rear-section pipe 302, the front-section pipe 301 is connected with the valve 1, the rear-section pipe 302 is connected with an outer pipe, the outer pipe is embedded and installed in a wall body, one end, far away from the rear-section pipe 302, of the front-section pipe 301 is connected to the valve 1 in an inclined and upward manner, the rear-section pipe 302 is horizontally arranged, under the condition that the water faucet is installed in a suspended manner at a certain distance from the wall body, the situation that the stored accumulated water is too much due to the fact that the horizontally arranged rear-section pipe 302 is too long is effectively avoided, and when the valve 1 is closed, water in the front-section pipe 301 is guided back to the rear-section pipe 302 as much as possible;

the upper end and the lower end of the rear-section pipe 302 are respectively sleeved with the heat-conducting sleeve 5 and the anti-freezing sleeve 4, the heat-conducting sleeve 5 and the anti-freezing sleeve 4 are matched with each other to play a role in heat preservation and heat insulation for the rear-section pipe 302, the anti-freezing sleeve 4 is internally provided with a plurality of anti-freezing self-heating bodies 7 which are contacted with the bottom of the rear-section pipe 302, the plurality of anti-freezing self-heating bodies 7 are used for sensing the internal temperature of the rear-section pipe 302, when the internal temperature of the rear-section pipe 302 suddenly drops enough to freeze accumulated water in the rear-section pipe 302, the temperature of the hollow cylinder 701 which is closely contacted with the rear-section pipe 302 is also reduced, meanwhile, the temperature of the water storage strips 703 on the peripheral side wall of the hollow cylinder 701 is also reduced, after the water of the water storage strips is frozen, the volume of the water storage strips is increased to crack the water storage strips 703, so that the oval cavity 7011 is exposed, the self-heating columns 704 on the inner side of the hollow cylinder 701 are contacted with air, thereby generating self-heating reaction, and transferring heat into the rear-section pipe 302 by the heat-conducting ball 702, the freezing prevention sleeve 4 and the heat conduction sleeve 5 which are arranged in a butt joint mode are matched, so that the frozen part in the rear-section pipe 302 is effectively unfrozen, the frozen part is automatically unfrozen, and water taking is not influenced;

it is to be added here that, when the faucet is used in winter and in cold environment, the anti-freezing self-heating bodies 7 can be periodically detached and observed, and when the crack is found 703, the anti-freezing self-heating bodies can be replaced in time, so as to effectively avoid the influence of long-time freezing on normal use of the faucet.

The components used in the present invention are all standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experiments.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a tap prevents frostbite from heating type that unfreezes, includes valve (1), the front and back end of valve (1) is equipped with outlet pipe (2) and inlet tube (3) respectively, its characterized in that: the water inlet pipe (3) comprises a front section pipe (301) and a rear section pipe (302), the front section pipe (301) is connected with the valve (1), the rear-section pipe (302) is connected with the outer pipe, the upper end and the lower end of the rear-section pipe (302) are respectively sleeved with a heat conduction sleeve (5) and an anti-freezing sleeve (4), a plurality of anti-freezing self-heating bodies (7) are arranged in the anti-freezing sleeve (4), the top ends of the anti-freezing self-heating bodies (7) extend to the rear-section pipe (302), the anti-freezing self-heating body (7) comprises a hollow cylinder (701) and a heat conducting ball (702), the heat conducting ball (702) is connected to the hollow cylinder (701), a self-heating column (704) is embedded in the hollow cylinder (701), the outer side wall of the hollow cylinder (701) is provided with a plurality of elliptical cavities (7011) communicated with the interior of the hollow cylinder, and water storage strips (703) are embedded in the elliptical cavities (7011).

2. The self-heating defrosting antifreeze faucet of claim 1, further comprising: one end, far away from the rear section pipe (302), of the front section pipe (301) is connected to the valve (1) in an inclined mode, and the rear section pipe (302) is horizontally arranged.

3. The self-heating defrosting antifreeze faucet of claim 1, further comprising: the upper end surface of the anti-freezing sleeve (4) is provided with an arc-shaped flap (6) which is sleeved at the bottom end of the rear-section pipe (302), the bottom end of the rear-section pipe (302) is provided with a plurality of communicating cavities (3021), the arc-shaped flap (6) is provided with a plurality of spherical bulges (601) matched with the positions of the communicating cavities (3021), and the spherical bulges (601) extend to the inside of the communicating cavities (3021).

4. The self-heating defrosting antifreeze faucet of claim 3, wherein: the spherical bulges (601) are arranged in one-to-one correspondence with the heat conducting balls (702), the bottom ends of the hollow cylinders (701) are connected with sealing plates, and the sealing plates are connected to the bottoms of the anti-freezing sleeves (4).

5. The self-heating defrosting antifreeze faucet of claim 1, further comprising: the water storage strip (703) comprises an outer capsule (7031) embedded on the elliptical cavity (7011), and tap water (7032) is stored in the outer capsule (7031).

6. The self-heating defrosting antifreeze faucet of claim 5, wherein: the outer capsule (7031) is made of a thin film material, and the top ends of a plurality of water storage strips (703) extend to the inside of the heat conducting ball (702).

7. The self-heating defrosting antifreeze faucet of claim 6, further comprising: the self-heating column (704) comprises a heat conducting rod embedded in the hollow cylinder (701), the outer wall of the heat conducting rod is coated with a layer of self-heating material, and the self-heating material is reduced iron powder.

8. The self-heating defrosting antifreeze faucet of claim 7, further comprising: the inside of heat conduction ball (702) is equipped with heat conduction bag (8) that are connected with cavity section of thick bamboo (701) top, heat conduction bag (8) are including cavity bag and fill in the inside thermal expansion gas of cavity bag.

9. The self-heating defrosting antifreeze faucet of claim 8, further comprising: the hollow capsule, the heat conducting ball (702), the heat conducting rod and the arc-shaped valve (6) are all made of heat conducting materials, and the thermal expansion gas is carbon dioxide.

10. The self-heating defrosting antifreeze faucet of claim 1, further comprising: the heat-insulating cavity is formed in the heat-conducting sleeve (5), heat-insulating cotton (502) is filled in the heat-insulating cavity, and a plurality of heat-conducting strips (501) are inserted in the heat-insulating cotton (502).

Images